Increased Intragenic IGF2 Methylation is Associated with Repression of Insulator Activity and Elevated Expression in Serous Ovarian Carcinoma

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Abstract

Overexpression of insulin-like growth factor-II (IGF2) is a prominent characteristic of many epithelial ovarian malignancies. IGF2 imprinting and transcription are regulated in part through DNA methylation, which in turn regulates binding of the insulator protein CTCF within the IGF2/H19 imprint center. We have shown that IGF2 overexpression in ovarian cancer is associated with hypermethylation of CTCF binding sites within the IGF2/H19 imprint center. The aim of this study was to investigate the methylation and binding capacity of a novel putative CTCF binding motif located intragenic to IGF2 and determine how this relates to IGF2 expression. Among 35 primary serous epithelial ovarian cancer specimens, methylation of two CpGs, including one within the core binding motif and another adjacent to this motif, was higher in the 18 cancers with elevated IGF2 expression versus 10 with low expression (average 68.2 versus 38.5%; p < 0.0001). We also found that the CpG site within the CTCF binding motif is hypermethylated in male gametes (>92%; average 93.2%; N = 16). We confirmed binding of CTCF to this region in ovarian cancer cells, as well as the paralog of CTCF, Brother Of the Regulator of Imprinted Sites (BORIS), which is frequently overexpressed in cancers. The unmethylated CTCF binding motif has insulator activity in cells that express CTCF or BORIS, but not in cells that express both CTCF and BORIS. These intragenic CpG dinucleotides therefore comprise a novel paternal germline imprint mark and are located in a binding motif for the insulator protein CTCF. Methylation of the CpG dinucleotides is positively correlated with IGF2 transcription, indicating that increased methylation represses insulator function. These combined results suggest that methylation and CTCF binding at this region play important roles in regulating the level of IGF2 transcription. Our data have revealed a novel epigenetic regulatory element within the IGF2/H19 imprinted domain that is highly relevant to aberrant IGF2 expression in ovarian malignancies.

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Most cited references 38

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The protein CTCF is required for the enhancer blocking activity of vertebrate insulators.

Adam Bell, Adam West, Gary Felsenfeld (1999)

An insulator is a DNA sequence that can act as a barrier to the influences of neighboring cis-acting elements, preventing gene activation, for example, when located between an enhancer and a promoter. We have identified a 42 bp fragment of the chicken beta-globin insulator that is both necessary and sufficient for enhancer blocking activity in human cells. We show that this sequence is the binding site for CTCF, a previously identified eleven-zinc finger DNA-binding protein that is highly conserved in vertebrates. CTCF sites are present in all of the vertebrate enhancer-blocking elements we have examined. We suggest that directional enhancer blocking by CTCF is a conserved component of gene regulation in vertebrates.

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CTCF binding at the H19 imprinting control region mediates maternally inherited higher-order chromatin conformation to restrict enhancer access to Igf2.

Gholamreza Tavoosidana, Elena Pugacheva, V Tiwari … (2006)

It is thought that the H19 imprinting control region (ICR) directs the silencing of the maternally inherited Igf2 allele through a CTCF-dependent chromatin insulator. The ICR has been shown to interact physically with a silencer region in Igf2, differentially methylated region (DMR)1, but the role of CTCF in this chromatin loop and whether it restricts the physical access of distal enhancers to Igf2 is not known. We performed systematic chromosome conformation capture analyses in the Igf2/H19 region over >160 kb, identifying sequences that interact physically with the distal enhancers and the ICR. We found that, on the paternal chromosome, enhancers interact with the Igf2 promoters but that, on the maternal allele, this is prevented by CTCF binding within the H19 ICR. CTCF binding in the maternal ICR regulates its interaction with matrix attachment region (MAR)3 and DMR1 at Igf2, thus forming a tight loop around the maternal Igf2 locus, which may contribute to its silencing. Mutation of CTCF binding sites in the H19 ICR leads to loss of CTCF binding and de novo methylation of a CTCF target site within Igf2 DMR1, showing that CTCF can coordinate regional epigenetic marks. This systematic chromosome conformation capture analysis of an imprinting cluster reveals that CTCF has a critical role in the epigenetic regulation of higher-order chromatin structure and gene silencing over considerable distances in the genome.

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Loss of IGF2 imprinting: a potential marker of colorectal cancer risk.

Yiqian Wu, Hengmi Cui, Ian D. Hutcheon … (2003)

Loss of imprinting (LOI), an epigenetic alteration affecting the insulin-like growth factor II gene (IGF2), is found in normal colonic mucosa of about 30% of colorectal cancer (CRC) patients, but it is found in only 10% of healthy individuals. In a pilot study to investigate the utility of LOI as a marker of CRC risk, we evaluated 172 patients at a colonoscopy clinic. The adjusted odds ratio for LOI in lymphocytes was 5.15 for patients with a positive family history [95% confidence interval (95% CI), 1.70 to 16.96; probability P = 0.002], 3.46 for patients with adenomas (95% CI, 1.14 to 11.37; P = 0.026), and 21.7 for patients with CRC (95% CI, 3.48 to 153.6; P = 0.0005). LOI can be assayed with a DNA-based blood test, and it may be a valuable predictive marker of an individual's risk for CRC.

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Author and article information

Journal

Journal ID (nlm-ta): Front Oncol

Journal ID (iso-abbrev): Front Oncol

Journal ID (publisher-id): Front. Oncol.

Title: Frontiers in Oncology

Publisher: Frontiers Media S.A.

ISSN (Electronic): 2234-943X

Publication date (Electronic preprint): 29 April 2013

Publication date (Electronic): 24 May 2013

Publication date Collection: 2013

Volume: 3

Electronic Location Identifier: 131

Affiliations

[1] ¹Epigenetics Research Laboratory, Division of Gynecologic Oncology, Department of Obstetrics and Gynecology, Duke University Medical Center , Durham, NC, USA

[2] ²Department of Pathology, Duke University Medical Center , Durham, NC, USA

Author notes

Edited by: Angeles Alvarez Secord, Duke University Medical Center, USA

Reviewed by: Miriam Reuschenbach, University Hospital Heidelberg, Germany; Victoria L. Bae-Jump, University of North Carolina at Chapel Hill, USA

*Correspondence: Susan K. Murphy, Epigenetics Research Laboratory, Division of Gynecologic Oncology, Department of Obstetrics and Gynecology, Duke University Medical Center, Box 91012, Durham, NC 27708, USA. e-mail: susan.murphy@ 123456duke.edu

This article was submitted to Frontiers in Women's Cancer, a specialty of Frontiers in Oncology.

Article

DOI: 10.3389/fonc.2013.00131

PMC ID: 3662894

PubMed ID: 23745176

SO-VID: 60677cf6-dca9-47bd-943c-eb2f40454a37

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in other forums, provided the original authors and source are credited and subject to any copyright notices concerning any third-party graphics etc.

History

Date received : 02 April 2013

Date accepted : 09 May 2013

Page count

Figures: 6, Tables: 1, Equations: 0, References: 46, Pages: 10, Words: 7503

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